Soft loop-current fluctuations involving vanadium and antimony orbitals in kagome metals mediate chiral d+id and disorder-robust s± pairing channels, with a pressure-driven Lifshitz transition selecting between them.
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Combined inelastic neutron scattering and DFT calculations demonstrate energy-dependent 3D spin susceptibility in an iron-based superconductor, with a peak at the out-of-plane AFM wavevector driven by non-Fermi-surface states.
SSH electron-phonon coupling yields higher superconducting Tc than Holstein coupling in QMC simulations by enhancing both electron pairing and Cooper-pair phase coherence.
citing papers explorer
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Superconductivity in kagome metals due to soft loop-current fluctuations
Soft loop-current fluctuations involving vanadium and antimony orbitals in kagome metals mediate chiral d+id and disorder-robust s± pairing channels, with a pressure-driven Lifshitz transition selecting between them.
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Three-dimensional spin susceptibility in Ba$_{0.75}$K$_{0.25}$Fe$_{2}$As$_{2}$: Out-of-plane modulation revealed by neutron spectroscopy and theoretical modeling
Combined inelastic neutron scattering and DFT calculations demonstrate energy-dependent 3D spin susceptibility in an iron-based superconductor, with a peak at the out-of-plane AFM wavevector driven by non-Fermi-surface states.
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High-temperature superconductivity induced by the Su-Schrieffer-Heeger electron-phonon coupling
SSH electron-phonon coupling yields higher superconducting Tc than Holstein coupling in QMC simulations by enhancing both electron pairing and Cooper-pair phase coherence.